Читать книгу Biobased Composites - Группа авторов - Страница 2

1  Cover

2  Title Page

3  Copyright Page

4  List of Contributors

5  Preface

6  1 Introduction to Biobased Composites 1.1 Introduction 1.2 Biodegradable Materials 1.3 Polymers in Tissue Engineering 1.4 Environmental Realization 1.5 Biomass Composites Characteristics and Testing 1.6 Life‐cycle Assessment 1.7 Conclusions References

7  2 Processing Methods for Manufacture of Biobased Composites 2.1 Introduction 2.2 Biobased Materials 2.3 Processing Methods 2.4 Fabrication Techniques of Biobased Composites 2.5 Fillers and Reinforcements Used in the Preparation of Biobased Composites 2.6 Conclusion References

8  3 Physicochemical Analysis of Biobased Composites 3.1 Introduction 3.2 Performance of Biocomposites 3.3 Physicochemical Properties 3.4 Conclusion References

9  4 Characterization of Biobased Composites 4.1 Introduction 4.2 The Conception of Composites 4.3 Classification of Biocomposites 4.4 Materials for the Synthesis of Biobased Composites 4.5 Challenges of the Introduction of Natural Fiber References

10  5 Mechanical, Thermal, Tribological, and Dielectric Properties of Biobased Composites 5.1 Introduction 5.2 Characterization of Biobased Composites 5.3 Factors Influencing Various Properties of the Biobased Composites 5.4 Mechanical Properties of Biobased Composites 5.5 Thermal Properties of Biobased Composites 5.6 Tribological Properties of Biobased Composites 5.7 Dielectric Properties of Biobased Composites 5.8 Conclusions References

11  6 Flame Retardancy of Biobased Composites 6.1 Introduction 6.2 Types of Biobased Polymer Composites Used in a Flame‐Retardant Application 6.3 Role and Effect of Natural Byproducts on the Flame‐Retardant Behavior of a Biocomposite 6.4 Role and Effect of Biobased Natural Fibers on the Flammability of a Biocomposite 6.5 Summary References

12  7 Failure Mechanisms of Biobased Composites 7.1 Introduction 7.2 Matrix Materials for Biobased Composites 7.3 Trends in Biobased Composites 7.4 Adapted Manufacturing Technologies 7.5 Other Failure Criteria 7.6 Conclusion References

13  8 Recent Advances and Technologies of Biobased Composites 8.1 Introduction 8.2 Recent Advances on Biobased Matrices 8.3 Recent Advances on Biobased Reinforcements 8.4 Recent Advances on Biobased Composite Processing 8.5 Conclusion References

14  9 Biocomposites for Energy Storage 9.1 Introduction 9.2 Fundamental Concepts 9.3 Selection Parameters for Biocomposites 9.4 Biocomposites for Energy Storage 9.5 Bioinspired Composite Materials 9.6 Bioinspired Composites for Energy Storage 9.7 Enzyme‐Based Materials 9.8 Biosensing/Bioimaging Applications 9.9 Conclusion References

15  10 Analysis of the Physical and Mechanical Properties of A Biobased Composite with Sisal Powder 10.1 Introduction 10.2 Biobased Composites 10.3 Polyester Matrix Composites 10.4 Manufacture of Composites 10.5 Physical–Mechanical Tests 10.6 Analysis of Physical and Mechanical Properties 10.7 Conclusions Acknowledgments References

16  11 Physico‐Mechanical Properties of Biobased Composites 11.1 Introduction 11.2 Physico‐Mechanical Property of the Biobased Composites 11.3 Applications of Biobased Composites 11.4 Conclusions References

17  12 Synthesis and Utilization of Biodegradable Polymers 12.1 Introduction 12.2 Synthesis Techniques of Biodegradable Polymers 12.3 Biodegradable Polymers and Their Synthesis 12.4 Applications of Biopolymers in Industries 12.5 Conclusion References

18  13 Forecasts of Natural Fiber Reinforced Polymeric Composites and Its Degradability Concerns – A Review 13.1 Introduction 13.2 Recent Trends of Natural Fiber Production from Plants 13.3 Magnitude of Natural Fibers at this Juncture 13.4 Constraints and Competence of Natural Fibers 13.5 Degradability of Polymeric Natural Fiber Composites 13.6 Marine Application of Natural Fiber Composites and Its Degradation 13.7 Conclusion Acknowledgments References

19  14 Biofibers and Biopolymers for Biocomposites – in the Eyes of Spectroscopy 14.1 Introduction 14.2 Characterization 14.3 Conclusions References

20  15 Environmental Impact Study on Biobased Composites Using Lifecycle Methodology 15.1 Introduction 15.2 Lifecycle Assessment 15.3 Simplified Case Study 15.4 Goal and Scope 15.5 System Boundary 15.6 Inventory Analysis 15.7 Impact Assessment 15.8 Results 15.9 Conclusion References

21  Index

22  End User License Agreement